Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor-derived chemotactic factors have been identified and suggested to play a role in the regulation of macrophage infiltration in neoplastic tissues. The present study was designed to assess the in vivo relevance of a tumor-derived chemotactic factor molecularly identified as monocyte chemotactic protein (MCP; alternative designations are JE and MCAF) by gene transfer in a murine melanoma. After gene transfer, MCP-producing melanoma clones showed a marked (twofold) increase in the percentage of tumor-associated macrophages compared with control clones and with the parent line: for instance, the percentage of tumor-associated macrophages was 20.9 +/- 1.5, 29.4 +/- 2.3, and 47.6 +/- 2.5 for the parent line, the control V14 clone, and the MCP-producing L12 clone, respectively. MCP-producing cells were tumorigenic but exhibited a slower growth rate in vivo (e.g., doubling time of 2.9 and 6.6 days for the control V14 and the MCP-producing L12 clone, respectively) with a prolongation of survival time. The in vitro growth rate of melanoma clones was unaffected by MCP gene transfer. The same difference between MCP-producing and control cells, in terms of macrophage infiltration and growth rate, was detected after implantation in athymic mice. Whereas the in vivo growth rate of MCP-expressing tumors was slower, after i.m. inoculation of small cell numbers (10(2) cells) MCP-producing cells were slightly, but significantly, more tumorigenic. Local administration of IL-2 had modest, but definite, antitumor activity in this model; MCP-producing cells were less susceptible to local IL-2 immunotherapy. These results demonstrate that a tumor-derived chemotactic cytokine can indeed play a role in the regulation of mononuclear phagocyte recruitment in neoplastic tissues and emphasize how tumor-associated macrophages can exert a dual influence in tumor-host interactions.
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PMID:Monocyte chemotactic cytokine gene transfer modulates macrophage infiltration, growth, and susceptibility to IL-2 therapy of a murine melanoma. 173 40

Pseudomonas aeruginosa, an extracellular opportunistic pathogen, utilizes two major mechanisms to evade the host defence system. One of these mechanisms is the production of a large number of extracellular products, such as proteases, toxins, and lipases. The two proteases, alkaline protease and elastase, inhibit the function of the cells of the immune system (phagocytes, NK cells, T cells), inactivate several cytokines (IL-1, IL-2, IFN-r, TNF), cleave immunoglobulins and inactivate complement. Inhibition of the local immune response by bacterial proteases provides an environment for the colonization and establishment of chronic infection. The other mechanism by which P. aeruginosa evades the host defence system is the biofilm mode of growth of the bacteria in chronic infections. The biofilm-grown bacteria induce a low phagocyte response, and provide a barrier for the bacteria against antibodies, complement, and the cells of the immune system. Protection from the host defence system combined with increased antibiotic resistance of the bacteria in the biofilm are the major reasons for the persistence of P. aeruginosa in chronic infections.
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PMID:Mechanisms involved in the evasion of the host defence by Pseudomonas aeruginosa. 175 6

Rat IL-2-activated natural killer (A-NK) cells contain a number of cytosolic proteases (A-NKP 1-3), two of which (A-NKP 2 and A-NKP 3) have been implicated in cytolytic function. The 3.2.3 monoclonal antibody directed against the NKRP-1 signal transduction molecule, a selective marker of rat NK cells, was used to select a highly purified population of rat NK cells. When the 3.2.3-positive cells were cultured in the presence of IL-2, a time-dependent increase in the specific activity of A-NKP 1, A-NKP 2 and A-NKP 3 was observed which paralleled the observed increase in lytic activity against both NK-sensitive (YAC-1) and NK-resistant (P815) targets. A transient rise was observed in the specific activity of N alpha-benzyloxycarbonyl-L-lysine thiobenzyl esterase (BLT esterase, i.e. granzyme A). These results lend further support to the hypothesis that A-NKP 2, a component of the rat A-NK cell multicatalytic proteinase complex/proteasome, and A-NKP 3 contribute to the cytolytic function of A-NK cells. Moreover, these results further suggest that proteolytic enzymes that contribute to cell-mediated cytotoxicity are not restricted to the granzymes or localized only in the lytic granules of effector cells.
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PMID:Non-granular proteolytic enzymes of rat interleukin-2-activated natural killer cells. III. Enhancement of A-NKP 1, 2, and 3 proteolytic activities (cleaving after Arg, Phe and Pro) in response to interleukin-2. 893 22

Murine IL-2-activated, adherent natural killer (A-NK) cells produce proteolytic activities (including a chymase and a tryptase) which appear to be components of the proteasome/multicatalytic proteinase complex and appear to represent the mouse homologues of the rat A-NK cell A-NKP 2 and A-NKP 1 protease components. The chymase is readily inhibited by Z-Gly-Gly-Phe chloromethylketone (Z-GGF) and to a lesser extent by N-tosyl-L-phenylalanyl-chloromethylketone (TPCK). In addition, this activity is inhibited by 3,4-dichloroisocoumarin (DCI), a suicide inhibitor for both chymotryptic and tryptic proteolytic enzymes. Protease inhibitors reduced A-NK cell-mediated cytotoxicity against P815 target cells, most prominently with inhibitors of chymotryptic and tryptic enzymes, including TPCK, DCI and Z-GGF. A polyclonal rabbit antibody raised against rat liver proteasome immunofluorescently labeled the cytoplasm of 4-day-cultured murine A-NK cells, multiple granules in 5 to 6-day cultures and large intracytoplasmic pools in cells cultured longer. Ultrastructurally this shift in labeling over time corresponded to an immunogold redistribution to non-membrane delineated mucoid masses. A minor nuclear labeling was noted at all time points, whereas the cisternae of the endoplasmic reticulum or Golgi region were negative. It is concluded that murine A-NK cells synthesize and accumulate proteasome in large intracytoplasmic pools, non-delineated by membranes which can occupy up to 80% of the A-NK cellular volume. The potential function of the proteasome produced by A-NK cells including cell-mediated cytotoxicity against tumor target cells remains to be elucidated.
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PMID:Immunocytochemical localization of multicatalytic protease complex (proteasome) during generation of murine IL-2-activated natural killer (A-NK) cells. 898 Sep 12

In eukaryotes, 20S proteasome subunit composition is controlled by the cytokine interferon-gamma (IFN-gamma). IFN-gamma induces the synthesis of the beta-subunits LMP2, LMP7 and MECL-1, which in consequence replace their constitutive subunit homologs delta, MB1 and MC14/Z in the 20S complex. By pulse labeling mouse RMA cells and immunoprecipitation of proteasome complexes with the antibody MP3, we have analysed the effect of different IFN-gamma concentrations on proteasomal subunit composition. Our experiments show that IFN-gamma concentrations as low as 5 U/ml induce subunit substitutions and that overall proteasomal subunit composition is dependent on the cytokine concentration used. An IFN-gamma concentration of 50 U/ml is sufficient for complete replacement of subunit delta by LMP2. In contrast, IFN-gamma treatment never induces a complete replacement of subunit MC14 by MECL-1. These subunits are present at an approximate 1:1 molar ratio, suggesting that both subunits coexist in the same 20S proteasome complex. Furthermore, different regulatory mechanisms have to be postulated for the synthesis and incorporation of the three IFN-gamma inducible proteasome subunits. Both IFN-gamma as well as IL-2 also seem to influence the modification state of the alpha subunit C8. Since the subunit composition is dependent on the cytokine concentration used and strongly influences the proteolytic properties of the 20S proteasome complex, our experiments represent a caveat for experiments in which IFN-gamma dependent proteasomal enzyme characteristics have been analysed without monitoring the subunit composition.
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PMID:Cytokine induced changes in proteasome subunit composition are concentration dependent. 906 55

The Rel/NF kappa B family of eukaryotic transcription factors are critical in immune and inflammatory processes regulating the expression of a wide variety of cytokines including IL-1, IL-2, IL-6, TNF-alpha and GM-CSF. Its ubiquitous distribution, rapid induction and regulation, the complexity of its subunits and its apparent involvement in several diseases has made this transcription factor a subject of intense study in normal cellular growth and cancer. Emerging studies have implicated a role for this transcription factor in the normal processes of aging. As significant declines in immune function is a natural concomitant to advancing age, the regulation of transcription factor NF kappa B appears to play a pivotal role in immune dysregulation during senescence, contributing to down regulation of both IL-2 and IL-2 receptor-alpha expression. Our studies have contributed to understanding the regulation of lowered NF kappa B induction in T cells during aging in humans and mice. Since we have shown that the lowered induction of NF kappa B in activated T cells from the elderly can be attributed to impaired degradation of the inhibitor I kappa B-alpha due to lowered proteasomal activity, we suspect that a similar alteration in proteasomal activity may be operative in age-dependent failure of immune function including the inability to initiate DNA synthesis following activation, skewing of T cell repertoire, lowered cytolytic activity and accumulation of aberrant proteins. Understanding the regulation of the proteasome pathway during immune senescence may provide new avenues for therapeutic intervention for immune based geriatric diseases.
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PMID:Regulation of transcription factor NF kappa B in immune senescence. 944 66

Optimal T cell activation and interleukin-2 production requires a second signal in addition to antigen-mediated T cell receptor (TCR) signaling. The CD28 molecule has been demonstrated to act as an effective costimulatory molecule upon binding by B7.1 or B7.2 present on antigen-presenting cells. The CD28 signal acts in concert with the TCR signal to significantly augment activation of the NF-kappaB family of transcription factors. The interleukin-2 gene is regulated by NF-kappaB among other transcription factors, in part, via a CD28 responsive element (CD28RE) present in the IL-2 promoter. Enhanced activation of NF-kappaB by CD28 is mediated by rapid phosphorylation and proteasome-mediated degradation of the NF-kappaB inhibitory proteins IkappaB alpha and IkappaB beta, which allows for accelerated nuclear expression of the liberated NF-kappaB. Herein, we provide evidence that the catalytic activities of two recently identified IkappaB kinases, IKKalpha and IKKbeta, are significantly elevated when T cells are stimulated through CD28 in addition to mitogen treatment. Catalytically inactive forms of IKKs are able to block the in vivo phosphorylation of IkappaB alpha induced by mitogen and CD28. Furthermore, CD28-mediated reporter gene transactivation of the CD28RE/AP-1 composite element is consistently attenuated by the IKK mutants. These findings suggest that cellular signaling pathways initiated at the TCR and CD28 converge at or upstream of IKK, resulting in more robust kinase activity and enhanced and prolonged NF-kappaB activation.
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PMID:IkappaB kinases serve as a target of CD28 signaling. 973 79

In the presence of TCR ligation by Ag, CD28 pathway mediates the most potent costimulatory signal for T cell activation, cytokine secretion, and T cell expansion. Although CD28 costimulation promotes T cell expansion due to IL-2 secretion and subsequent signaling via the IL-2 receptor, recent studies indicate that the dramatic T cell expansion mediated through the unopposed CD28 stimulation in CTLA4-deficient mice is IL-2 independent. Therefore, we sought to dissect the effects of CD28 and IL-2 receptor pathways on cell cycle progression and determine the molecular mechanisms by which the CD28 pathway regulates T cell expansion. Here we show that CD28 costimulation directly regulates T cell cycle entry and progression through the G1 phase in an IL-2-independent manner resulting in activation of cyclin D2-associated cdk4/cdk6 and cyclin E-associated cdk2. Subsequent progression into the S phase is mediated via both IL-2-dependent and IL-2-independent mechanisms and, although in the absence of IL-2 the majority of T cells are arrested at the G1/S transition, a significant fraction of them progresses into the S phase. The key regulatory mechanism for the activation of cyclin-cdk complexes and cell cycle progression is the down-regulation of p27kip1 cdk inhibitor, which is mediated at the posttranscriptional level by its ubiquitin-dependent degradation in the proteasome pathway. Therefore, CD28 costimulation mediates T cell expansion in an IL-2-independent and IL-2 dependent manner and regulates cell cycle progression at two distinct points: at the early G1 phase and at the G1/S transition.
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PMID:CD28 costimulation mediates T cell expansion via IL-2-independent and IL-2-dependent regulation of cell cycle progression. 1060 5

CTLs specific for tumor antigens play a major role in immunity against cancer. Improved binding affinity of putative TAA peptides could enhance the in vivo immunogenicity of these self-altered self- tumor antigens. We examined here the efficacy of tumor vaccines composed of an altered peptide ligand of MUT-1, designated MUT-D, which exhibited significantly higher class-I allele K(b) binding affinity than its native counterpart MUT-1. The peptide was loaded on antigen presenting cells composed of the C57BL/6-syngeneic fibroblast cell line BLK.CL4. These cells were treated with proteasome inhibitor in order to shut off the degradation of proteins and the subsequent loading of endogenous peptides onto MHC class-I molecules, thus allowing for the pulsing of these cells with the modified peptide MUT-D. Proteasome-inhibited and modified peptide-loaded fibroblasts induced a peptide-specific CTL that significantly delayed primary tumor progression and protected the pre-immunized mice against the development of lung metastasis following the surgical removal of the primary tumor. Genetic modification of the fibroblasts to express the immunostimulatory cytokine IL-2 did not improve the APC function of the modified cells, nor did it result in augmentation of the potency of the vaccine. Our results suggest that the proteasome-inhibited fibroblasts pulsed with modified, high binder tumor-associated antigen peptide are good antigen-presenting cells and represent an effective form of tumor vaccine.
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PMID:Induction of antitumor immunity by proteasome-inhibited syngeneic fibroblasts pulsed with a modified TAA peptide. 1062 83

The multicatalytic proteinase complex or proteasome possesses at least 4 distinct proteolytic activities. We have previously reported that the chymotrypsin-like activity of the rat natural killer cell proteasome may play a role in natural killer (NK) cell-mediated cytotoxicity or IL-2 activated NK (A-NK) cell-mediated cytotoxicity. Using a series of novel, Cephalon, Inc, synthetic proteasome inhibitors (CEP-1508, CEP-1612 and CEP-3117) which have been reported to be specific for the chymotrypsin-like activity of the proteasome, we have further investigated the possible role of the proteasome, with emphasis on the chymotryptic activity components, in cell-mediated cytotoxicity. We now report that these compounds can inhibit the rat NK proteasome in a dose dependent manner. Nevertheless, there is only a 50% inhibition of A-NK cell-mediated cytotoxicity. These results confirm and extend our previous results that the proteasome contributes, at least in part, to cell-mediated cytotoxicity. However, as anticipated, since multiple molecular pathways contribute to cell-mediated cytotoxicity, the proteasome contributes only partially to NK cell-mediated cytolytic reactivity. The exact role of the proteasome in NK cell-mediated killing, and whether single or multiple chymotryptic domains function directly or indirectly, remains to be fully determined.
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PMID:Proteasome inhibitor and lymphocyte function: partial inhibition of cell-mediated cytotoxicity and implication that the lymphocyte proteasome may contain multiple chymotryptic domains. 1075 85


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